吉林大学学报(地球科学版) ›› 2017, Vol. 47 ›› Issue (6): 1795-1802.doi: 10.13278/j.cnki.jjuese.201706202

• 地质工程与环境工程 • 上一篇    下一篇

温度作用下缺陷花岗岩热损伤:以甘肃北山缺陷花岗岩为例

高红梅1, 兰永伟2, 周莉1, 孟丽岩1   

  1. 1. 黑龙江科技大学建筑工程学院, 哈尔滨 150022;
    2. 黑龙江科技大学矿业工程学院, 哈尔滨 150022
  • 收稿日期:2017-03-23 出版日期:2017-11-26 发布日期:2017-11-26
  • 作者简介:高红梅(1978-),女,副教授,主要从事高温岩石渗流方面的研究工作,E-mail:85289703@qq.com
  • 基金资助:
    国家自然科学基金项目(11402080);黑龙江省自然科学基金项目(QC2014C062);黑龙江省普通高等学校采矿工程重点实验室开放课题(2013-KF04)

Thermal Damage of Granite with Fracture Under Temperature Effect:A Case Study on Beishan Granite in Gansu

Gao Hongmei1, Lan Yongwei2, Zhou li1, Meng Liyan1   

  1. 1. Institute of Architectural Engineering, Heilongjiang University of Science and Technology, Harbin 150022, China;
    2. Institute of Mining Engineering, Heilongjiang University of Science and Technology, Harbin 150022, China
  • Received:2017-03-23 Online:2017-11-26 Published:2017-11-26
  • Supported by:
    Supported by National Natural Science Foundation of China(11402080),National Natural Science Foundation of Heilongjiang Province(QC2014C062) and Open Project of Key Laboratory of Mining Engineering of Heilongjiang Ordinary Higher Education Institutions(2013-KF04)

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摘要: 为了研究温度作用下缺陷花岗岩的热损伤问题,以甘肃北山缺陷花岗岩为例,从损伤力学和热力学的角度出发,研究了缺陷花岗岩内部热应力的产生机理,推导出缺陷花岗岩裂纹热损伤的临界应力公式,分析了高温作用对花岗岩热弹性比能变化的影响规律,建立了温度作用下花岗岩热损伤演化方程,并对温度作用下花岗岩应力损伤面可能存在的形态进行了研究。对含缺陷的花岗岩在温度作用下结构内部结构晶体单元损伤、晶体单元损伤应力变化规律进行数值模拟,结果表明:当模拟温度升高到60℃时,花岗岩缺陷裂纹附近出现明显的热损伤,远离缺陷处出现微弱的热损伤;当温度升高到120℃时,花岗岩缺陷处剪切破坏特征明显,裂纹处的热损伤点继续增大,远离缺陷处出现非常明显的不间断损伤点,损伤量、热应力、能量累计数出现了突变;此后,随着温度升高到200℃,损伤增量变化微弱。北山缺陷花岗岩的损伤量和温度之间存在直接的演化关系。

关键词: 缺陷花岗岩, 热损伤, 热应力, 甘肃北山

Abstract: In order to study on thermal damages of detective granite under temperature effect, an analysis on thermal stress of cracked granite was conducted through applying the theories of thermodynamics and damage mechanics. The critical stress formula of thermal damage of cracked granite was derived, further the influence of high temperature on the variation of the thermal elastic ratio of granite was analyzed, and then the thermal damage evolution equation of granite under temperature was established, finally the possible forms of the stress damage surface of granite under temperature were studied. A numerical simulation of the internal structure, crystal element damage, and stress variation of the Beishan defective granite under temperature was carried out. When the temperature rose to 60℃, a significant thermal damage occurred near the cracks of granite, and the damage was small far away from the cracks. When the temperature rose to 120℃, the shear failure characteristics of granite defects were obvious, the thermal damage near crack increased seriously, and the uninterrupted damages appeared obviously away from the defects. Under 120℃, a sudden change came out for the damage amount, the thermal stress, and the cumulative energy. Thereafter, with the increase of temperature to 200℃, the increment of damage is weak. The results show that there is a direct relationship between the damage and the temperature of Beishan granite with defects.

Key words: defective granite, thermal damage, thermal stress, Beishan,Gansu

中图分类号: 

  • TD313
[1] 邱一平,林卓英.花岗岩热震损伤研究[J].实验室研究与探索,2007,10(26):287-289. Qiu Yiping, Lin Zhuoying. Study on the Granite of Thermal Shock Damage[J]. Research and Exploration in Laboratory, 2007,10(26):287-289.
[2] 刘泉声,许锡昌.温度作用下脆性岩石的损伤分析[J].岩石力学与工程学报,2000,19(4):408-411. Liu Quansheng, Xu Xichang. Damage Analysis of Brittle Rock at High Temperature[J]. Chinese Journal of Rock Mechanics and Engineering,2000,19(4):408-411.
[3] 邓广哲,王广地.北山花岗岩热黏弹性流变特性分析[J].岩石力学与工程学报,2004,23(1):4368-4372. Deng Guangzhe, Wang Guangdi. Analysis on Characteristics of Thermo-Viscoelasto Rheology of Beishan Granite[J]. Chinese Journal of Rock Mechanics and Engineering, 2004,23(1):4368-4372.
[4] 付文生,李长春,袁建新.温度对岩石损伤影响的研究[J].华中理工大学学报,1993, 21(3):110-114. Fu Wensheng, Li Chanchun,Yuan Jianxin.The Effect of Temperatures on Rock Damage[J]. Huazhong University of Science &Technology,1993,21(3):110-114.
[5] 许锡昌.花岗岩热损伤特性研究[J].岩石力学与工程学报,2003,22(增刊2):189-194. Xu Xichang. Research on Thermal Damage Characteristics of Granite[J]. Chinese Journal of Rock Mechanics and Engineering, 2003,22(Sup.2):189-194.
[6] 唐世斌,唐春安,朱万成,等.热应力作用下的岩石破裂过程分析[J].岩石力学与工程学报,2006,25(10):2071-2077. Tang Shibin, Tang Chun'an, Zhu Wancheng, et al. Numerical Investigation on Rock Failure Process Induced by Thermal Stress[J]. Chinese Journal of Rock Mechanics and Engineering, 2006,25(10):2071-2077.
[7] 郝振良,马捷,王明育.热应力作用下的有效压力对多孔介质渗透系数的影响[J].水动力学研究与进展,2003,18(6):792-796. Hao Zhenliang, Ma Jie, Wang Mingyu. Influence of Effective Stress on the Coefficient of Permeability of Porous Medium Under Thermal Stress[J]. Journal of Hydrodynamics,2003,18(6):792-796.
[8] 徐小丽,高峰,季明.温度作用下花岗岩断裂行为损伤力学分析[J].武汉理工大学学报,2010,32(1):143-149. Xu Xiaoli, Gao Feng, Ji Ming. Damage Mechanical Analysis of Fracture Behavior of Granite Under Temperature[J]. Journal of Wuhan University of Technology,2010,32(1):143-149.
[9] 刘石,许金余.高温作用对花岗岩动态压缩力学性能的影响研究[J].振动与冲击,2014,22(3):195-200. Liu Shi, Xu Jinyu. Effect of High Temperature on Dynamic Compressive Mechanical Properties of Granite[J]. Journal of Vibration and Shock,2014,22(3):195-200.
[10] 左建平,周宏伟,胡本.基于单元质心对应法花岗岩热开裂及变形模拟研究[J].中国矿业大学学报,2012,41(6):878-885. Zuo Jianping, Zhou Hongwei, Hu Ben. Meso-Structure Based Numerical Simulations of Deformation and Failure of Granite:Thermal-Mechanical Coupling[J]. Journal of China University of Mining and Technology,2012,41(6):878-885.
[11] 张连英.高温作用下泥岩的损伤演化及破裂机理研究[D].北京:中国矿业大学,2012. Zhang Lianying.Research on Damage Evolution and Fracture Mechanisms of Mudstone Under High Temperature[D].Beijing:China University of Mining and Technology,2012.
[12] 王利,高谦.基于强度理论的岩石损伤弹塑性模型[J].北京科技大学学报,2008,30(5):461-467. Wang Li, Gao Qian. Elastoplastic Model of Damaged Rock Based on the Strength Theory[J]. Journal of University of Science and Technology Beijing,2008,30(5):461-467.
[13] 郤保平,赵阳升.600℃内高温状态花岗岩遇水冷却后力学特性试验研究[J].岩石力学与工程学报,2010,29(5):893-899. Xi Baoping, Zhao Yangsheng. Experimental Research on Mechanical Properties of Water-Cooled Granite Under High Temperatures Within 600℃[J]. Chinese Journal of Rock Mechanics and Engineering,2010,29(5):893-899.
[14] 徐燕萍,刘泉声,许锡昌.温度作用下的岩石热弹塑性本构方程的研究[J].辽宁工程技术大学学报(自然科学版),2001,20(4):527-529. Xu Yanping, Liu Quansheng, Xu Xichang. The Research on the Thermo-Elasto-Plastic Equation of the Rock Under the Temperature Effect[J]. Journal of Liaoning Technical University(Natural Science),2001,20(4):527-529.
[15] 翟松韬,吴刚,张渊,等.高温作用下花岗岩的声发射特征研究[J].岩石力学与工程学报,2013,32(1):126-132. Zhai Songtao, Wu Gang, Zhang Yuan, et al. Research on Acoustic Emission Characteristics of Granite Under High Temperature[J]. Chinese Journal of Rock Mechanics and Engineering,2013,32(1):126-132.
[16] 王鹏,许金余,刘石,等.砂岩的高温损伤与模量分析[J].岩土力学,2014,33(2):211-216. Wang Peng, Xu Jinyu, Liu Shi, et al. Analysis of High Temperature Damage and Modulus of Sandstone[J]. Rock and Soil Mechanics, 2014,33(2):211-216.
[17] 何满潮,郭平业.深部岩体热力学效应及温控对策[J].岩石力学与工程学报,2013,32(12):2378-2395. He Manchao, Guo Pingye. Deep Rock Mass Thermodynamic and Temperature Effect and Temperature Control Measures[J]. Chinese Journal of Rock Mechanics and Engineering,2013,32(12):2378-2395.
[18] 尹士兵.高温后粉砂岩动态力学特性及破坏机理研究[D].南京:中南大学,2008. Yin Shibing. Research on Dynamic Mechanical Characteristics and Failure Mechanism of Powder Sandstone After High Temperature[D]. Nanjing:Central South University,2008.
[19] 秦本东.煤层顶板石灰岩和砂岩高温膨胀特性及力学特性的试验研究[D].西安:长安大学,2010. Qin Bendong. Experimental Study on Expansion Characteristics and Mechanical Characteristics for Limestone and Sandstone on the Coal Roof Under High Temperature[D]. Xi'an:Chang'an University,2010.
[20] 李小双.高温后粗砂岩力学性质试验研究[D].焦作:河南理工大学,2008. Li Xiaoshuang. Experimental Study on Mechanical Properties of Grit Stone After High Temperature[D]. Jiaozuo:Henan University of Science and Technology, 2008.
[21] 方荣.温度周期变化作用下大理岩宏细观力学变形试验研究[D].南京:河海大学,2006. Fang Rong. Study on the Marble Macroscopic and Mesoscopic Mechanical Deformation Characteristics Under the Periodical Change of Temperature[D]. Nanjing:Hohai University,2006.
[22] 黄平华,韩素敏.矿井底板破碎带温度场模型推导及模拟分析[J].吉林大学学报(地球科学版),2014,44(3):969-976. Huang Pinghua, Han Sumin. Simulation Analysis and Deduction of Temperature Field Model in the Mine Floor Fracture Zone[J]. Journal of Jilin University(Earth Science Edition),2014,44(3):946-954.
[23] 尹崧宇,赵大军,周宇,等.超声波振动下非均匀岩石损伤过程数值模拟与试验[J]. 吉林大学学报(地球科学版),2017,47(2):142-149. Yin Songyu, Zhao Dajun, Zhou Yu, et al. Laboratory Study and Micromechanical Analysis of Mechanical Behaviors of Three Thermally Damaged Rocks[J]. Journal of Jilin University(Earth Science Edition),2017,47(2):142-149.
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